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1/42
Applicable Model Motor: ∑-II ( SGMAH, SGMPH and SGMGH )
Servo Amplifier: ∑-II ( SGDM and SGDH)
Table of Contents 1.Notes on application…..……..…….……………………..…………………………………………………..2
1-1. Check List when replacing ∑-II with ∑-V…………………………………………………..……………..5
1-2. Concept of replacement..………………………………………………...…………….………………….8
1-3. Replacement list………………………………………………………………………………………….… 9
2.Motor 2-1. Type comparison table ………………………………………………...………………………..…………13
2-2. Characteristics
(1) Standard product without reduction gears….………..…………………………………….…………. 17
2-3. Mounting Dimensions
(1) Without reduction gears (standard)……………….…….…….……….………………………….……18
(2) With general-purpose reduction gears…………………………..…………….…………………….... 22
(3) With precision reduction gears…………………………………………………….…………………… 25
2-4. Notes on machine installation..…………………………………………………………………..………….28
3.Servo Amplifier 3-1. Type comparison table………………………………………………………………..……………………29
3-2. Terminal table …………………………………………………………………………...…………….……29
(1) Main circuit terminal…………………………………………………..………………………………..…29
(2) Control circuit terminal……………………………………………………..…………………………..…30
3-3. Installation size…….……………………………………………………….…………………………….…32
3-4. Notes on control board installation.………………………………………..……………………………...37
4.Cable and peripherals………………………………………………………………………………...………38
5.Parameter converter…………………………………………………………………………..………………43 Revision history……………………………………………………………………………….………….…………44
Procedure for Replacing ∑-II with ∑-V
Yaskawa Electric Corp.
Motion Control Division
Solution & Support Center
Marketing Section
2/42
1. Notes on Application
Notes Check Item
Usage condition in ∑-II Usage of ∑-V
Using S-phase output of absolute
encoder
S-phase output is not available in
SGDV. There are no alternatives.
Please use the multi-turn data and
initial incremental pulse. Or, please
read data through PC communication
(RS-422).
Using reference input magnification
function
The reference input magnification
function is not available in SGDV. There
are no alternatives. Switch by a host
controller or MECHATROLINK
communication.
Using auto tuning function The same auto-tuning function as Σ-II is
not provided in SGDV. The tuneless
function is the alternative function.
Please use the advanced auto-tuning
function or moment of inertia
identification function of SigmaWin +
when you need to know the moment of
inertia ratio.
Using speed bias function The speed bias function is not provided
in SGDV. The positioning time can be
shortened by using "Positioning setting
(model following control)" of the
advanced auto-tuning function.
Using auto gain switch function The auto-gain function is not provided
in SGDV. There are no alternatives.
Please switch by using C-SEL signal in
a host controller or MECHATROLINK
communication.
Using SGDM/SGDH Type
Servo Amplifier
Using duct ventilation type Please inquire to the factory. Although
there is a model that corresponds to the
duct ventilation type but the capacity is
limited and the installation size is
different.
Using Application Module None N/A
3/42
Using fully-closed I/F unit
(JUSP-FC100)
Please use SGDV, which has a
fully-closed option module.
Please change the feedback signal
from the linear scale to ± 1V analog
signal output from 90 degree phase
difference 2-phase pulse train. Then
use the serial conversion unit
(JZDP-D00 -000-E type).
Using DeviceNet I/F unit
(JUSP-NS300)
Currently we don’t provide a
replacement model in ∑-V series.
Please inquire to the factory.
Using ProfieBus I/F unit
(JUSP-NS500)
Currently we don’t provide a
replacement model in ∑-V series.
Please inquire to the factory.
Using INDEXER module
(JUSP-NS600)
Currently we don’t provide a
replacement model in ∑-V series.
Please inquire to the factory.
Using Application Module
with SGDH Servo
Amplifier
Using MECHATROLINK I/F unit
(JUSP-NS100/-NS115)
Please use MECHATROLINK-II
communication reference type servo
amplifier (SGDV- 1 type).
However, SGDH +
JUSP-NS100/NS115 type and
SGDV- 1 type are corresponding
to different commands. Therefore the
software change of the host controller
side may be necessary.
Please use SGDV, which has a
fully-closed option module when
performing the fully-closed control.
Please change the feedback signal
from the linear scale to ± 1V analog
signal output from 90 degree phase
difference 2-phase pulse train. Then
please use the serial conversion unit
(JZDP-D00 -000-E type).
4/42
Using MP940 of one axis machine
controller
MP940 equivalent products are not
available in the option module. Please
consider t replacing with a combination
of MP2400/MP2300S of multi-axes
machine controller, and
MECHATROLINK-II communication
reference servo amplifier
(SGDV- 1 type) may be
necessary.
The following functions and performances were improved by replacing ∑-II with ∑- V.
・Added the small capacity medium inertia series (SGMJV type) to the motor lineup.
・Increased the max speed of the motor from 5000rpm to 6000rpm. (SGMJV type and SGMAV type)
・Improved the speed frequency response characteristic for performance.
SGDM / SGDH 400Hz ⇒ SGDV 1.6kHz (Load inertia=Rotor inertia of motor)
・Supports pulse train command input frequency of 4Mpps.
SIGN+PULSE and CW/CCW are 4Mpps. The A/B-phase 2-phase pulse train becomes 4Mpps at 1x2,
2Mpps at 2x2, and 1Mpps at 4x2.
However, it is 200kpps when connecting with open collector output.
・RoHS compliant as standard product.
・Safety standard (Safety Stop-0) embedded.
・PC connection changes from RS-232C communication to USB.
5/42
1-1. Check List when replacing ∑-II with ∑-V
Category Item Items to be Checked Checked
<Confirmation of main body installation dimension/position>
・Please confirm installation dimensions of the motor and machine
in-use.
Pilot diameter
Mounting hole pitch
Mounting hole diameter
Axis diameter
Axis shape (straight, key, center tap, and taper)
Main Body
<Confirmation of special specification>
・Please confirm whether the motor you are using is a special type.
Please confirm the specification with the delivery specifications if
you are using a special type.
Voltage <Correspondence of AC100V specification>
・Both servo motor and servo amplifier were 100V version when using
the AC100V power supply in ∑-II. However, only AC200V motors
are available in the ∑-V. Select the proper 200V motor when using
AC100V power supply servo amplifier
Motor
Cable <Confirmation of wiring >
・Please confirm cable wiring, and also confirm that the machine has
no interference.
<Confirmation of main body mounting position>
・Please confirm the size (W・H・D) and the mounting hole position of
the servo amplifier in-use.
Main Body
<Confirmation of special specifications>
・Please confirm whether the servo amplifier in-use does not have
your own NP, and product shape, and also confirm that any special
processes etc. by referring to the delivery specifications.
<Confirmation of wiring>
・The main circuit connector, terminal block position, array order, and
dividing method are different between the servo amplifier in-use
and the replacement servo amplifier.
Please consider the substitution or extension of wiring when there
is no enough room in wiring.
Servo
Amplifier
Hardware
Main Circuit
<AC100V specification>
・Corresponds with the voltage specification "F" (Input 100V, Output
200V. Double voltage) servo amplifier. The servo motors are
AC200V.
6/42
<Single phase AC200V specification>
・Three-phase circuit AC200V is standard In the ∑-V series servo
amplifier.
Please change the parameter "Function selection switch B" when
using single-phase power supply. (Pn00B.2=1)
(Contents are the same as the motor voltage specifications)
Connect to terminal L1 and L2 when using the single-phase power
supply.
Please note that the torque-speed characteristic is different from
the three-phase circuit power supply specifications.
Also please note that the size of 1.5kW single-phase AC200V servo
amplifier (SGDV-120A A008000) is the same as the 3kW
three-phase AC200V specification (SGDV-200A A).
<DC power supply input>
・Please change the parameter "Function selection switch 1" when
using DC power supply input. (Pn001.2=1)
Note) Connect the main circuit DC power supply only after
changing the parameter.
Control
Circuit
<Confirmation of wiring>
・ The control circuit connector, numbers of pins, array order might
be different between the servo amplifier in-use and the
replacement servo amplifier.
Software <Confirmation of special software version>
・ Confirm whether the software of the servo amplifier in-use is
standard software from the version number. Contact Yaskawa
with the version number if you are not sure the software is
standard or not.
Software version can be confirmed with the handheld digital
operator, or function Fn012 of built-in panel operator, and product
data reading function of the supporting software SigmaWin+.
Servo
Amplifier
Software
Constant < Confirmation of user constants >
・Confirm the user constants of the servo amplifier in-use.
SigmaWin + has a function to convert from the user constants of
∑-II into the parameter of ∑- V.
・Factory default setting of ∑-V servo adjustment parameter is “enable
tuneless” (Pn170.0=1). Change it to “disable tuneless”
(Pn170.0=0) when you perform the servo adjustment.
7/42
Others In the Σ-II series, the stopping method is DB stop or free-run stop
when an alarm is detected. On the other hand, factory setting for G2
is 0 speed stop in Σ-V series. It is possible to change to the DB stop
or free-run stop when the parameter Pn00B.1=0 is set to1. The user
constant conversion function of SigmaWin + is not able to convert
this.
Application
module
<Confirmation of application module>
・Confirm the usage condition of application module when using
SGDH servo amplifier. ∑-V series does not support all the
application modules.
<Confirmation of the digital operator>
・The digital operators for ∑-II and ∑-V are different. Please purchase
a new digital operator if needed.
Option ・
Others
Peripherals
<Confirmation of PC connection cable>
・The PC connection cables for ∑-II and ∑-V are different.
Please purchase a new cable when using SigmaWin+.
8/42
1-2. Concept of Replacement When replacing ∑-II series servo motor/servo amplifier with ∑-V series, the following methods are available.
The battery for data backup of absolute encoder is built in the ∑-II servo amplifier SGDM or SGDH. On the
other hand, ∑-V has the encoder cable with the battery unit.
●Case 1
Replacing all the motors, servo amplifier, and cables with ∑-V series.
●Case 2
Replacing only the motor and amplifier. The existing cable can be used as is.
Case 2-1: for SGMJV, SGMAV, SGMPS Motors
Existing Encoder Cable
Existing Motor Cable
JZSP-CSP11-E
JZSP-CSP12-E
(only when using Abs Encoder)
JZSP-CSM** +
Motor plug and pin for ∑-II
Motor Cable
Encoder Cable
Encoder Cable
Motor Cable
Encoder Plug
Motor Cable ø7
Serial Encoder
9/42
* Using the encoder side cable of the extension encoder cable of 30m to 50m for JZSP-CSP11-E.
* Yaskawa Control is preparing the motor side cable connecting to the existing motor cable.
Case 2-2: for SGMGV and SGMSV Motors
The existing cable cannot be used for ∑-V series because the main body side connector is different.
1-3. Replacement List
Replacing SGMAH with SGMJV
Servo Amplifier Servo MotorServo Amplifie Servo Motor Case 1 Case 2SGDM-A3ADASGDH-A3AE
SGDM-A3BDASGDH-A3BE
SGDM-A5ADASGDH-A5AE
SGDM-A5BDASGDH-A5BE
SGDM-01ADASGDH-01AE
SGDM-01BDASGDH-01BE
SGDM-02ADASGDH-02AE
SGDM-02BDASGDH-02BE
SGDM-04ADASGDH-04AE
SGDM-08ADASGDH-08AE
Applicable ApplicableAxis diameter changes to ø19 from ø16
SGMAH-04A SGDV-2R8A
SGMAH-08A SGDV-5R5A SGMJV-08A
SGMJV-04A -
SGMAH-02B SGDV-2R1FApplicable -SGMJV-02A Applicable
SGMAH-02A SGDV-1R6A
Applicable -SGMAH-01B SGDV-R70F
SGMAH-01A SGDV-R70ASGMJV-01A Applicable
Applicable Axis diameter changes to ø8 from ø6SGMAH-A5B SGDV-R70F
SGMAH-A5A SGDV-R70ASGMJV-A5A Applicable
Applicable 30W version is not available. Use 50W . Axis diameterchanges to ø8 from ø6SGMAH-A3B SGDV-R70F
SGMAH-A3A SGDV-R70ASGMJV-A5A Applicable
Type in-use of ∑-II series Replacing type ∑-V series Replacing Method Note
Replacing SGMAH with SGMAV
Servo Amplifier Servo MotorServo Amplifie Servo Motor Case 1 Case 2SGDM-A3ADASGDH-A3AE
SGDM-A3BDASGDH-A3BE
SGDM-A5ADASGDH-A5AE
SGDM-A5BDASGDH-A5BE
SGDM-01ADASGDH-01AE
SGDM-01BDASGDH-01BE
SGDM-02ADASGDH-02AE
SGDM-02BDASGDH-02BE
SGDM-04ADASGDH-04AE
SGDM-08ADASGDH-08AE
Axis diameter changes to ø19 from ø16
SGMAH-04A SGDV-2R8A
SGMAH-08A SGDV-5R5A SGMAV-08A
SGMAV-04A -Applicable Applicable
SGMAH-02B SGDV-2R1FApplicable -SGMAV-02A Applicable
SGMAH-02A SGDV-1R6A
-SGMAH-01B SGDV-R70F
SGMAH-01A SGDV-R70ASGMAV-01A Applicable
Axis diameter changes to ø8 from ø6SGMAH-A5B SGDV-R70F
SGMAH-A5A SGDV-R70ASGMAV-A5A Applicable
Note
Applicable 30W version is not available. Use 50W . Axis diameter changes to ø8 from ø6SGMAH-A3B SGDV-R70F
SGMAH-A3A SGDV-R70ASGMAV-A5A Applicable
Type in-use of ∑-II series Replacing type ∑-V series Replacing Method
Applicable
Applicable
10/42
Replacing SGMPH with SGMJV or SGMPS
Servo Amplifier Servo Motor ServoAmplifier Servo Motor Case 1 Case 2
SGDM-01ADA
SGDH-01AE
SGDM-01BDA
SGDH-01BE
SGDM-02ADA
SGDH-02AE
SGDM-02BDA
SGDH-02BE
SGDM-04ADA
SGDH-04AE
SGDM-08ADA
SGDH-08AE
SGDM-15ADA
SGDH-15AEApplicable
SGMPS encoder is either the incremental encoder17bit or absolute encoder 17bit.SGMPH-15A SGDV-120A SGMPS-15A Applicable
Applicable
Flange angle changes to 80° from 120° and shaftdiameter changes to ø19 from ø16 when replacing withSGMJV.SGMJV encoder is either the incremental encoder20bit, incremental encoder 13bit or absolute encoder20bit.Flange angle is 80° (no change) and shaft diameter isø16 (no change) when replacing with SGMPS.SGMPS encoder is either the incremental encoder
SGMPH-04A SGDV-2R8A
SGMPH-08A SGDV-5R5ASGMJV-08A
orSGMPS-08A
Applicable
SGMJV-04Aor
SGMPS-04AApplicable Applicable
Flange angle changes to 60° from 80° when replacingwith SGMJV.SGMJV encoder is either the incremental encoder20bit, incremental encoder 13bit or absolute encoder20bit.Flange angle is 80° (no change) when replacing withSGMPS.SGMPS encoder is either the incremental encoder
SGMPH-02B SGDV-2R1F
Applicable
Flange angle changes to 60° from 80° when replacingwith SGMJV.SGMJV encoder is either the incremental encoder20bit, incremental encoder 13bit or absolute encoder20bit.Flange angle is 80° (no change) when replacing withSGMPS.SGMPS encoder is either the incremental encoder
SGMJV-02Aor
SGMPS-02AApplicable
SGMPH-02A SGDV-1R6A
Applicable
Flange angle changes to 40° from 60° when replacingwith SGMJV.SGMJV encoder is either the incremental encoder20bit, incremental encoder 13bit or absolute encoder20bit.Flange angle is 60° (no change) when replacing withSGMPS.SGMPS encoder is either the incremental encoder
SGMPH-01B SGDV-R70F
SGMPH-01A SGDV-R70ASGMJV-01A
orSGMPS-01A
Applicable
Type in-use of ∑-II series Replacing type ∑-V series Replacing MethodNote
11/42
Replacing SGMGH(1500rpm) with SGMGV
Servo Amplifier Servo Motor Servo AmplifierServo Motor Case 1 Case 2
- - SGDV-3R8A SGMGV-03A N/A N/A Flange angle: 90mmShaft diameter: ø14mm
SGDM-05ADA SGDV-3R8A01A N/A
SGDH-05AE SGDV-3R8A11A N/A
SGDM-10ADA SGDV-7R6A01A N/ASGDH-10AE SGDV-7R6A11A N/A
SGDM-15ADA SGDV-120A01A N/ASGDH-15AE SGDV-120A11A N/A
SGDM-20ADA SGDV-180A01A N/A
SGDH-20AE SGDV-180A11A N/A
SGDM-30ADA SGDV-330A01A N/ASGDH-30AE SGDV-330A11A N/A
SGDM-50ADA SGDV-330A01A N/ASGDH-50AE SGDV-330A11A N/A
SGDM-60ADA SGDV-470A01A N/ASGDH-60AE SGDV-470A11A N/A
SGDM-75ADA SGDV-550A01A N/ASGDH-75AE SGDV-550A11A N/A
SGDM-1AADA SGDV-590A01A N/ASGDH-1AAE SGDV-590A11A N/A
SGDM-1EADA SGDV-780A01A N/ASGDH-1EAE SGDV-780A11A N/A
Rotor inertia: 281⇒242 (x10-4kg·m2)
SGMGH-1EA□A SGMGV-1EA Applicable Rotor inertia: 315⇒303 (x10-4kg·m2)
SGMGH-1AA□A SGMGV-1AA Applicable
-
SGMGH-75A□A SGMGV-75A Applicable -
SGMGH-55A□A SGMGV-55A Applicable
-
SGMGH-44A□A SGMGV-44A Applicable -
SGMGH-30A□A SGMGV-30A Applicable
Rotor inertia: 20.5⇒19.9(x10-4kg・m2)
SGMGH-20A□A SGMGV-20A ApplicableFlange angle: 180⇒130(mm)Shaft diameter: ø35⇒ø24(mm)Rotor inertia: 31.7⇒26.0(x10-4kg・m2)
SGMGH-13A□A SGMGV-13A Applicable
Flange angle: 130⇒90(mm)Shaft diameter: ø19⇒ø16(mm) Rotor inertia: 7.24⇒3.33(x10-4kg・m2)
SGMGH-09A□A SGMGV-09A Applicable -
SGMGH-05A□A SGMGV-05A Applicable
Type in-use of ∑-II series Replacing type ∑-V series Replacing Method Note
SGDM-20ADA SGDV-330A01ASGDH-20AE SGDV-330A11A
SGDM-30ADA SGDV-330A01ASGDH-30AE SGDV-330A11A
SGDM-50ADA SGDV-470A01ASGDH-50AE SGDV-470A11A
SGDM-60ADA SGDV-550A01ASGDH-60AE SGDV-550A11A
Rated torque: 41.9⇒35.0(N・m)Peak torque: 107.0⇒87.6(N・m)
SGMGH-55A□B SGMGV-75A Applicable N/A Rated torque: 52.6⇒48.0(N・m)Peak torque: 136.9⇒119.0(N・m)
SGMGH-44A□B SGMGV-55A Applicable N/A
Rated torque: 19.1⇒18.6(N・m)
SGMGH-30A□B SGMGV-44A Applicable N/A -
SGMGH-20A□B SGMGV-30A Applicable N/A
12/42
2. Motor 2-1. Comparison Table
・Comparison table of SGMGH and SGMGV (w/o reduction gears)
Σ-Ⅱ ∑-Ⅴ
0.3 03 030.45 05 050.6 06 -0.85/0.9 09 091.2 12 -1.3 13 131.8/2.0 20 202.9/3.0 30 304.4 44 445.5 55 557.5 75 7511 1A 1A15 1E 1E
A AD DC - 20bit serial incremental encoder- D -2 - 20 bit serial absolute encoder- 3 -A
C
B -
D -
2 2 -3 -5 -6 6 -1 1 Set to "1" for no option instead of leaving as a blank
DC90V brake B B -DC24 brake C C -
D D -E E -S S -
Option⑥
No option
DC90V brake w/ oil sealDC24V brake w/ oil sealw/ oil seal
Shaft-end Spec.
⑤
w/o straight key1/10 taper w/ key Taper setting is not available
Use straight key1/10 taper w/ woodruff keyStraight key tap
Rated Rotation Speed
/Design Order④
1500min-1A Standard: Totally enclosed, Self-cooling IP67 (excluding
shaft penetrated part)1500min-1 (for high-accuracy machine tool)1000min-1 1000rpm model is not provided please use the 1500rpm
model.1000min-1 (for high-accuracy machine tool)
Detector③
17bit serial incremental encoder20bit serial incremental encoder17bit absolute encoder20bit serial absolute encoder
Capacity①
kW
1000rpm model is not provided in SGMGV. If you are using SGMGH 1000rpm model (SGMGH- B) please use the 1500rpm model though the rated torque and externals are different.
Voltage Spec.②
200V -400V
Series NameSupplementServo Motor Type SGMGH- SGMGV-
SGMGV- □□ □ □ □ □ □ Type Name ① ② ③ ⑥⑤④
13/42
・Comparison table of SGMAH, SGMPH and SGMAV, SGMJV (w/reduction gears)
SGMAH- SGMPH- SGMAV- SGMJV-
30 A3 - - - 50W setting (30W setting is not available)
50 A5 - A5 A5 -100 01 01 01 01 -200 02 02 02 02 -400 04 04 04 04 -750 08 08 08 08 -
StandardUL-ListedCE-ListedStandardUL-ListedCE-Listed
- A 20bit serial incremental encoder (13bit is selectable for SGMJV)
20bit serial incremental encoder
-
20bit serial absolute encoder
20bit serial absolute encoderUse a cable with battery because no super capacitor is available
-
- E
-
Precision reduction gears (General-purposereduction gears are not available)
-2 - Corresponding to 50W
Correspond by 1/9 (only 50W) or 1/11Not corresponding to 50W
----
Handle with straight key tap---
90V brake 24V brake (90V brake is not available)24V brake -C
w/ straight tap 8 8
Option⑧
No option 1 1B -C
w/ straight key 4 -w/ straight key tap 6 6
1/33 7 7
Shaft-end Spec.
⑦
Flange mounting (no shaft) 0 0w/o straight key 2 2
B B ※1/21 C C
Reduction Ratio
⑥
1/5 1 11/9 2 ※3/31 3 -1/11
SGMJV Standard: Fully-closed, Self-cooling IP65 (excluding shaft penetrated part)
Drip-proof spec. -
Reduction Gears Spec.
⑤
Precision reduction gears H H
General-purpose reduction gears J -
3
Design Order
④
Standard A A
Detector③
13bit serial incremental encoder A
20bit serial absolute encoder -
-
16bit serial absolute encoder (with super capacitor)
4 -
16bit serial absolute encoder 1
-
20bit serial incremental encoder - D
16bit serial incremental encoder B
B - Corresponds by combining the Servo amplifier power supply spec. "F" and motor for 200V
200V A A -
Capacity①
W
Voltage Spec.
②
100V
Series Name ∑Ⅱ ∑Ⅴ SupplementServo Motor Type
· ∑-II seriesSGMAH: Precision reduction gears 1/5, 1/9 (only 30W and 50W), 1/11 (other than 30W and 50W), 1/21, 1/33General-purpose reduction gears1/5, 3/31, 1/21, 1/33SGMPH: Precision reduction gears 1/5, 1/11,1/21, 1/33
SGMJV- □□ □ □ □ □ □ □ □ Type Name ① ④ ⑧⑦⑥⑤③②
14/42
・Comparison Table of SGMGH and SGMGV (w/reduction gears)
Σ-Ⅱ
0.3 030.45 050.6 060.85/0.9 091.2 121.3 131.8/2.0 202.9/3.0 304.4 445.5 557.5 7511 1A15 1E
ADC-2-A
C
B
D
L
E,F1A2B5C78024681
90V brake B24V brake C
N/A
w/ Drip-proof connector D
Series Name ∑-Ⅴ
Servo Motot type SGMGH- SGMGV-
Capacity①
kW
Quotes in each case
VoltageSpec.
200V400V
Detector③
17bit serial incremental encode20bit serial incremental encode17bit absolute encoder20bit serial absolute encoder
RatedRotation
Speed/ Design
Order④
1500min-11500min-1(for high-accuracy machine1000min-11000min-1(for high-accuracy machine
ReductioGears
Spec.⑤
Precision reduction gears
General-purpose reduction gears
ReductionRatio⑥
1/51/61/91/111/201/211/291/45
Shaft-endSpec.⑦
Flange mounting (no shaft)w/o straight keyw/ straight keyw/ straight key tapw/ straight tap
Brake Spec.⑧
No brake
ConnectorSpec.⑨
Standard
SGMGV- □□ □ □ □ □ □ □ □ □ Type Nam e ① ⑥⑤④ ⑧⑦③② ⑨
15/42
2-2. Characteristic (Comparison between SGMAH,SGMPH and SGMJV,SGMAV)
Servo Motor Servo Motor ∑-Ⅱ ∑-Ⅴ ∑-Ⅱ ∑-Ⅴ ∑-Ⅱ ∑-ⅤSGMAH-A3A SGMJV-A5A 0.0166 0.0414 0.0955 0.159 0.286 0.557SGMAH-A5A SGMJV-A5A 0.022 0.0414 0.159 0.159 0.477 0.557SGMAH-01A SGMJV-01A 0.0364 0.0665 0.318 0.318 0.955 1.11SGMAH-02A SGMJV-02A 0.106 0.259 0.637 0.637 1.91 2.23SGMAH-04A SGMJV-04A 0.173 0.442 1.27 1.27 3.82 4.46SGMAH-08A SGMJV-08A 0.672 1.57 2.39 2.39 7.16 8.36SGMAH-A3A SGMAV-A5A 0.0166 0.0242 0.0955 0.159 0.286 0.477SGMAH-A5A SGMAV-A5A 0.022 0.0242 0.159 0.159 0.477 0.477SGMAH-01A SGMAV-01A 0.0364 0.038 0.318 0.318 0.955 0.955SGMAH-02A SGMAV-02A 0.106 0.116 0.637 0.637 1.91 1.91SGMAH-04A SGMAV-04A 0.173 0.19 1.27 1.27 3.82 3.82SGMAH-08A SGMAV-08A 0.672 0.769 2.39 2.39 7.16 7.16SGMPH-01A SGMJV-01A 0.0491 0.0665 0.318 0.318 0.955 1.11SGMPH-02A SGMJV-02A 0.193 0.259 0.637 0.637 1.91 2.23SGMPH-04A SGMJV-04A 0.331 0.442 1.27 1.27 3.82 4.46SGMPH-08A SGMJV-08A 2.1 1.57 2.39 2.39 7.16 8.36
Peak Torque (N・m)Motor Characteresitc
Rotor Inertia Moment (x10-4 kg・m2∑-Ⅱ ∑-Ⅴ Rated Torque (N・m)
100%
80%
60%
40%
20%
0%0 5 10 15 20 25 30
Load Inertia M om ent Ratio [SG M AV ratio]
Load
Ratio of SGMAH [Rated Ratio]
SG M JV
SG M AV
0%
20%
40%
60%
80%
100%
0倍 10倍 20倍 30倍
Load Inertia M om ent [Jm Ratio]
Effective
Torque [Rated Ratio %]
S G M AH-02
SGM AV-02
SGM JV-02
Please refer to the graph on the left
to replace the SGM type with the
SGMJV or SGMAV.
Replace with the SGMAV when the
ratio of load moment of inertia and
rotor moment of inertia is five times or
less, or the load ratio is 60% or more.
Else, replace with the SGMJV.
【 Reference 】
The graph on the left shows the
load ratio when replacing the
SGMAH which is using 70% load with
the SGMJV and SGMAV.
The load ratio increases but the
system is stable because the rotor
moment of inertia of SGMJV is larger.
10 times 20 times 30 times
16/42
(Comparison between SGMGH and SGMGV)
Servo Motor Servo Motor Σ-Ⅱ ∑-Ⅴ Σ-Ⅱ ∑-Ⅴ Σ-Ⅱ ∑-ⅤSGMGH-05A□A SGMGV-05A 7.24 3.33 2.84 2.86 8.92 8.92SGMGH-09A□A SGMGV-09A 13.9 13.9 5.39 5.39 13.8 13.8SGMGH-13A□A SGMGV-13A 20.5 19.9 8.34 8.34 23.3 23.3SGMGH-20A□A SGMGV-20A 31.7 26.0 11.5 11.5 28.7 28.7SGMGH-30A□A SGMGV-30A 46.0 46.0 18.6 18.6 45.1 45.1SGMGH-44A□A SGMGV-44A 67.5 67.5 28.4 28.4 71.1 71.1SGMGH-55A□A SGMGV-55A 89.0 89.0 35.0 35.0 87.6 87.6SGMGH-75A□A SGMGV-75A 125 125 48.0 48.0 119 119SGMGH-1AA□A SGMGV-1AA 281 242 70.0 70.0 175 175SGMGH-1EA□A SGMGV-1EA 315 303 95.4 95.4 224 224
Σ-Ⅱ(Rating 1500min-1) Σ-Ⅴ Motor Characterestic
Rotor Inertia Moment (x10-4kg・m2 Rated Torque (N・m) Peak Torque (N・m)
Servo M otor Servo M otor Σ-Ⅱ ∑-Ⅴ Σ-Ⅱ ∑-Ⅴ Σ-Ⅱ ∑-Ⅴ
SGMGV-03A 2.48 1.96 5.88
SGMGV-05A 3.33 2.86 8.92
SGMGV-05A 3.33 2.86 8.92
SGMGV-09A 13.9 5.39 13.8
SGMGV-09A 13.9 5.39 13.8
SGMGV-13A 19.9 8.34 23.3
SGMGV-13A 19.9 8.34 23.3
SGMGV-20A 26.0 11.5 28.7
SGMGV-20A 26.0 11.5 28.7
SGMGV-30A 46.0 18.6 45.1
SGMGV-30A 46.0 18.6 45.1
SGMGV-44A 67.5 28.4 71.1SGMGV-44A 67.5 28.4 71.1SGMGV-55A 89.0 35.0 87.6SGMGV-55A 89.0 35.0 87.6SGMGV-75A 125 48.0 119
The capacity of the servo motor SGMGV and servo amplifier SGDV goes up because of the rated torque differences when replacing SGMGH (Rated 1000rpm) with SGMGV.
Σ-Ⅱ(Rating 1000min-
1)Σ-Ⅴ
M otor C haracterestic
Rotor Inertia Moment (x10-4kg・m2) Rated Torque (N・m) Peak Torque (N・m)
SGMGH-03A□B 7.24 2.84 7.17
SGMGH-06A□B 13.9 5.68 14.1
SGMGH-09A□B 20.5 8.62 19.3
SGMGH-12A□B 31.7 11.5 28.0
SGMGH-20A□B 46.0 19.1 44.0
SGMGH-30A□B 67.5 28.4 63.7
SGMGH-44A□B 89.0 41.9 107.0
SGMGH-55A□B 125 52.6 136.9
17/42
2-3. Mounting Dimensions (1) Without Reduction Gears (Standard) Shaded area displays the part where size is different between the ∑-II motor and ∑-V motor.
LL LC
S
[W] LC LL S LC LL S LC LL SN/A 69.5Available 101N/A 77 70.5 69Available 108.5 115.5 114N/A 94.5 82.5 82.5Available 135 127.5 127.5N/A 96.5 80 80Available 136 120 120N/A 124.5 98.5 98.5Available 164 138.5 138.5N/A 145 115 115Available 189.5 160 160
30
50
100
200
400
750
BrakeM otor
C apacityReductionG ears
∑-II SeriesSG M AH
∑-V SeriesSGMAV SGM JV
40 6
40 6
40 8
60 14
60 14
80 16
60 14
40 8
40 8
60 14
80 19
40 8
40 8
60 14
60 14
80 19
NoReductionG ears
[W] LC LL S LC LL SN/A 62 82.5Available 91 127.5N/A 67 80Available 98.5 120N/A 87 98.5Available 118.5 138.5N/A 86.5 115Available 120 160
750 120
14
80 19
80
6014
16
14
400 80
200
40 8
60 14
8100 60
SG M JV
NoReductionG ears
ReductionG ears
M otorC apacity Brake
∑Ⅱ SeriesSG M PH
∑Ⅴ Series
18/42
[kW] LC LL S LC LL SN/A 138 139Available 176 172N/A 161 137Available 199 173N/A 185 153Available 223 189N/A 166 171Available 217 207N/A 192 160Available 243 208N/A 226 184Available 277 232N/A 260 221Available 311 265N/A 334 257Available 385 311N/A 338 331Available 383 382N/A 457 393Available 519 482
ReductionGears
MotorCapacity Brake
Σ-Ⅱ SeriesSGMGH(1500r/min)
Σ-Ⅴ SeriesSGMGV
NoReduction
Gears
0.45 130 19 90 16
0.85 130 19 130 19
1.3 130 22 130 22
24
2.9 180 35 180 35
1.8 180 35 130
35
5.5 180 42 180 42
4.4 180 35 180
42
11 220 42 220 42
7.5 180 42 180
5515 220 55 220
Σ-Ⅱ Σ-Ⅴ Σ-Ⅱ Σ-Ⅴ LC LL S LC LL SN/A 126Available 159N/A 139Available 172N/A 139Available 172N/A 137Available 173N/A 137Available 173N/A 153Available 189N/A 153Available 189N/A 171Available 207N/A 171Available 207N/A 160Available 208N/A 160Available 208N/A 184Available 232N/A 184Available 232N/A 221Available 265N/A 221Available 265N/A 257Available 311
ReductionGears
Motor Capacity[kW] Brake
Σ-Ⅱ SeriesSGMGH(1000r/min)
Σ-Ⅴ Series(SGMGV)
NoReduction
Gears
0.30.3 N/A
130138
19130 14
0.45 Available 176 130 16
0.60.45 N/A
130161
19130 16
0.85 Available 199 130 19
0.90.85 N/A
1301.3 Available
18522
130 19
223 130 22
1.21.3 N/A
1801.8 Available
16635
130 22
217 130 24
2.01.8 N/A
1802.9 Available
19235
130 24
243 180 35
3.02.9 N/A
1804.4 Available
22635
180 35
277 180 35
4.44.4 N/A
1805.5 Available
26042
180 35
311 180 42
5.55.5 N/A
1807.5 Available
33442
180 42
385 180 42
19/42
● Shaft Key Size
Shaded area displays the part where size is different between the ∑-II motor and ∑-V motor.
∑-Ⅴ Series Motor
Capacity
∑-II Series
SGMPH SGMJV Reduction
Gears [W]
Brake
QK U W T QK U W T
N/A 100
Available 14 1.8 3 3 14 1.8 3 3
N/A 200
Available 16 3 5 5 14 3 5 5
N/A 400
Available 16 3 5 5 14 3 5 5
N/A
No
Reduction
Gears
750 Available
22 3 5 5 22 3.5 6 6
Please confirm the difference of the size individually by referring to the data in the catalog for the shaft key dimension of the SGMGH motor and SGMGV motor.
T
W
UQ K
[W] Q K U W T Q K U W T Q K U W TN/AAvailableN/AAvailableN/AAvailableN/A 20Available 14N/A 20Available 14N/A 30Available 25
3 5 5
3 5 5
1.2 3 3
3 5 5
1.2 2 2
14 1.2 2 2
14
14
∑Ⅱ SereisSG M AH
14 1.8 3 3
14 3 5 5
14
14 1.8 3
750
3
14 1.8 3 3 14 1.8 3 3
3 5 5400 14 3 5 5
14 3 5 5
3.5 6
200
22 3.5 6 6 622
100
SGMAV SGM JV∑Ⅴ Series
ReductionG ears
M otorCapacity O il Seal
NoReductionG ears
30
50
20/42
(2) With General-Purpose Reduction Gears
The customers need to prepare the general-purpose reduction gears by themselves or it might be necessary for
them to consider replacing with a precise decelerator because there is no general-purpose reduction gears in the
in the ∑-V. Please refer to the catalog for the detailed dimension.
All the SGMGV motor with reduction gears need to be quoted in each case.
LL LC
S
21/42
[W] LC LL S LC LL S LC LL SN/A 101.5Available 133N/A 101.5Available 133N/A 116.5Available 148N/A 116.5Available 148N/A 109 110 108.5Available 140.5 155 153.5N/A 114 110 108.5Available 145.5 155 153.5N/A 131 119 117.5Available 162.5 164 162.5N/A 131 134.5 133Available 162.5 179.5 178N/A 131.5 122 122Available 172 167 167N/A 131.5 146.5 146.5Available 172 191.5 191.5N/A 153 146.5 146.5Available 194 191.5 191.5N/A 153 149 149Available 194 194 194N/A 134Available 179N/A 158.5Available 203.5N/A 161Available 206N/A 161Available 206N/A 138 144 144Available 177.5 184 184N/A 138 144 144Available 177.5 184 184N/A 165.5 151 151Available 205 191 191N/A 165.5 151 151Available 205 191 191N/A 166 162.5 162.5Available 223.5 202.5 202.5N/A 172.5 169.5 169.5Available 212 209.5 209.5N/A 200.5 169.5 169.5Available 240 209.5 209.5N/A 200.5 202.5 202.5Available 240 242.5 242.5N/A 195.5Available 241.5N/A 195.5Available 241.5N/A 228.5Available 274.5N/A 228.5Available 274.5N/A 193 193 193Available 237.5 238 238N/A 196 193 193Available 240.5 238 238N/A 223 219 219Available 267.5 264 264N/A 223 219 219Available 267.5 264 264
ReductionGears
MotorCapacity
Reduction GearRatio
Brake∑Ⅱ Series
SGMAH∑Ⅴ Series (precision reduction gear ratio)
SGMAV SGMJV
General-PurposeReductionGears
30
1/5
1/21
50
1/5
100
60 14
1/10.3 60 14
60 14
1/33 60 14
60 14 40 10 40 10
1/10.3 70 16 40 10 40 10
1/21 70 16 40 10 40 10
1/33 70 16 60 16 60 16
1/5 70 16 40 10 40 10
1/10.3 70 16 60 16 60 16
1/21 90 20 60 16 60 16
1/33 90 20 90 25 90 25
150
1/5
1/21
1/10.3
40 8
90 16
60 16
1/33 90 25
200
1/5
1/10.3
1/21
90 20 60 16 60 16
90 20 60 16 60 16
105 25 90 25 90 25
1/33 105 25 90 25 90 25
400
1/5 90 20 60 16 60 16
1/10.3 105 25 90 25 90 25
1/21 120 32 90 25 90 25
1/33 120 32 120 40 120 40
550
1/5
1/11
1/21
90 25
90 25
120 40
1/33 120 40
750
1/5 105 25 90 25 90 25
1/10.3 120 32 90 25 90 25
1/21 145 40 120 40 120 40
1/33 145 40 120 40 120 40
22/42
[W] LC LL S LC LL S LC LL SN/A 110 108.5Available 155 153.5N/A 110 108.5Available 155 153.5N/A 119 117.5Available 164 162.5N/A 134.5 133Available 179.5 178N/A 117 122 122Available 146 167 167N/A 117 146.5 146.5Available 146 191.5 191.5N/A 122 146.5 146.5Available 150.5 191.5 191.5N/A 122 149 149Available 150.5 194 194N/A 134Available 179N/A 158.5Available 203.5N/A 161Available 206N/A 161Available 206N/A 126.5 144 144Available 158 184 184N/A 126.5 144 144Available 158 184 184N/A 137 151 151Available 168.5 191 191N/A 137 151 151Available 168.5 191 191N/A 157 162.5 162.5Available 188.5 202.5 202.5N/A 157 169.5 169.5Available 188.5 209.5 209.5N/A 164 169.5 169.5Available 195.5 209.5 209.5N/A 164 202.5 202.5Available 195.5 242.5 242.5N/A 195.5Available 241.5N/A 195.5Available 241.5N/A 228.5Available 274.5N/A 228.5Available 274.5N/A 156.5 193 193Available 189.5 238 238N/A 163.5 193 193Available 196.5 238 238N/A 174.5 219 219Available 207.5 264 264N/A 174.5 219 219Available 207.5 264 264
Reduction Gear
MotorCapacity
Reduction GearRatio
Brake∑Ⅱ Series
SGMPH∑Ⅴ Series (precision reduction gears)SGMAV SGMJV
50
1/5
1/21
100
1/5
40 8 40 8
1/9 40 8 40 8
40 8 40 8
1/33 60 16 60 16
70 25 40 8 40 8
1/10.3 70 25 60 16 60 16
1/21 90 20 60 16 60 16
1/33 90 20 90 25 90 25
150
1/5 40 8
1/11 60 16
1/21 90 16
1/33 90 25
200
1/5
1/10.3
1/21
90 20 60 16 60 16
90 20 60 16 60 16
105 25 90 25 90 25
1/33 105 25 90 25 90 25
400
1/5 105 25 60 16 60 16
1/10.3 105 25 90 25 90 25
1/21 120 32 90 25 90 25
1/33 120 32 120 40 120 40
550
1/5
1/11
1/21
90 25
90 25
120 40
1/33 120 40
750
1/5 105 25 90 25 90 25
1/10.3 120 32 90 25 90 25
1/21 1435 40 120 40 120 40
1/33 145 40 120 40 120 40
23/42
(3) With Precision Reduction Gears Please refer to the catalog for the detailed size.
All the SGMGV motor with reduction gears need to be quoted in each case.
LL LC
S
24/42
[W] LC LL S LC LL S LC LL SN/A 97.5Available 129N/A 97.5Available 129N/A 112.5Available 144N/A 112.5Available 144N/A 105 110 108.5Available 136.5 155 153.5N/A 106 110 108.5Available 137.5 155 153.5N/A 123 119 117.5Available 154.5 164 162.5N/A 123 134.5 133Available 154.5 179.5 178N/A 123.5 122 122Available 164 167 167N/A 140.5 146.5 146.5Available 181 191.5 191.5N/A 149.5 146.5 146.5Available 190 191.5 191.5N/A 149.5 149 149Available 190 194 194N/A 134Available 179N/A 158.5Available 203.5N/A 161Available 206N/A 161Available 206N/A 134.5 144 144Available 174 184 184N/A 151.5 144 144Available 191 184 184N/A 159.5 151 151Available 199 191 191N/A 159.5 151 151Available 199 191 191N/A 162.5 162.5 162.5Available 202 202.5 202.5N/A 187.5 169.5 169.5Available 227 209.5 209.5N/A 195.5 169.5 169.5Available 235 209.5 209.5N/A 199.5 202.5 202.5Available 235 242.5 242.5N/A 195.5Available 241.5N/A 195.5Available 241.5N/A 228.5Available 274.5N/A 228.5Available 274.5N/A 187 193 193Available 231.5 238 238N/A 216 193 193Available 260.5 238 238N/A 223 219 219Available 267.5 264 264N/A 223 219 219Available 267.5 264 264
120 40 120 40
40 120 40
1/33 145 40
90 25
1/21 145 40 120
25
1/11 120 32 90 25
90 25 90
120 40
750
1/5 105 25
1/33
120 40
90 25
90 25
550
1/5
1/11
1/21
120 40 120 40
25 90 25
1/33 120 32
90 25
1/21 120 32 90
16
1/11 105 25 90 25
60 16 60
25 90 25
400
1/5 90 20
25 901/33 105
90 25 90 25105 25
60 16 60 1690 20
60 16 60 1690 20
200
1/5
1/11
1/21
1/33 90 25
60 16
90 16
40 8
150
1/5
1/21
1/11
90 25 90 25
16 60 16
1/33 90 20
20 601/21 90
60 16 60 16
10 40 10
1/11 70 16
16 401/5 70
60 16 60 16
10 40 10
1/33 70 16
40 10
1/21 70 16 40
10
1/9 70 16 40 10
40 10 4060 14
1/33 60 14
60 14
1/9 60 14
60 14
PrecisionReduction
Gears
30
1/5
1/21
50
1/5
100
∑Ⅱ SereisSGMAH
∑Ⅴ SeriesSGMAV SGMJV
ReductionGears
MotorCapacity
Reduction GearRatio
Brake
25/42
[W] LC LL S LC LL S LC LL SN/AAvailableN/AAvailableN/AAvailableN/AAvailableN/A 110 108.5Available 155 153.5N/A 110 108.5Available 155 153.5N/A 119 117.5Available 164 162.5N/A 134.5 133Available 179.5 178N/A 109 122 122Available 138 167 167N/A 109 146.5 146.5Available 138 191.5 191.5N/A 118 146.5 146.5Available 147 191.5 191.5N/A 118 149 149Available 147 194 194N/A 134Available 179N/A 158.5Available 203.5N/A 161Available 206N/A 161Available 206N/A 123 144 144Available 154.5 184 184N/A 123 144 144Available 154.5 184 184N/A 131 151 151Available 162.5 191 191N/A 131 151 151Available 162.5 191 191N/A 143 162.5 162.5Available 174.5 202.5 202.5N/A 151 169.5 169.5Available 182.5 209.5 209.5N/A 159 169.5 169.5Available 190.5 209.5 209.5N/A 159 202.5 202.5Available 190.5 242.5 242.5N/A 195.5Available 241.5N/A 195.5Available 241.5N/A 228.5Available 274.5N/A 228.5Available 274.5N/A 150.5 193 193Available 183.5 238 238N/A 158.5 193 193Available 191.5 238 238N/A 174.5 219 219Available 207.5 264 264N/A 174.5 219 219Available 207.5 264 264
ReductionGears
MotorCapacity
Reduction GearRatio
Brake∑Ⅱ Series
SGMPH∑Ⅴ Series
SGMAV SGMJV
PrecisionReduction
Gears
30
1/5
1/9
1/21
1/33
50
1/5
1/21
40 8 40
1/9
40 8 40
8
40 8 40 8
8
1/33 60 16 60 16
100
1/5
1/11
1/21
70 16 40 8 40 8
70 16 60 16 60 16
90 20 60 16 60 16
1/33 90 20 90 25 90 25
150
1/5 40 8
1/11 60 16
1/21 90 16
1/33 90 25
200
1/5
1/11
1/21
90 20 60 16 60 16
90 20 60 16 60 16
105 25 90 25 90 25
1/33 105 25 90 25 90 25
400
1/5 90 20 60 16 60 16
1/11 105 25 90 25 90 25
1/21 120 32 90 25 90 25
1/33 120 32 120 40 120 40
550
1/5
1/11
1/21
90 25
90 25
120 40
1/33 120 40
750
1/5 105 25 90 25 90 25
1/11 120 32 90 25 90 25
1/21 145 40 120 40 120 40
1/33 145 40 120 40 120 40
26/42
2-4. Notes on Machine Installation Please be cautious about the cable wiring as well as the size of the flange, pilot, and shaft at machine
installation. The pictures shown below are part of the motor cable wiring of the 40 and 60.
40
60
27/42
3. Servo Amplifier 3-1. Type Comparison Table
1-3. Please refer to the replacement list
The servo amplifier type has been changed from the capacity value to output current value display.
3-2. Terminal Table (1) Main Circuit Terminal
・AC 200V spec. Main circuit terminal input allocation
・Single-phase power supply AC200V: It is possible to change to single phase power supply AC200V by the parameter (Factory setting is “3-phase
power supply”) however, the torque - rotational speed characteristic is different from the three-phase power
supply specification.
All the m ain circuits of the ∑-V series are 3-phase input
Term inal M arking FunctionL1 M ain circuit power supply input term inalL2L3U Servo m otor connection term inalVWL1C C ontrol power supply inpt term inal (100V/200V type)L2C
B1/(+) External regenarative resistor connection term inalB2B3(+)1 DC reactor conncetion term inal for power line harm onics control(+)2(-)1(-)2
B1/(+) M ain circuit forward side term inalP(-) M ain circuit reverse side term inal(-)2N
Ⅱ Ⅴ50~400W 750W 50~750W
L1 L1 L1L2 L2 L2(+)1 L3 L3(+)2 (+)1 L1C(-) (+)2 L2C
(-) B1/(+)L1C L1C B2L2C L2C B3B1 B1 (-)1B2 B2 (-)2
B3U U UV V VW W W
28/42
(2) Control Circuit Terminal [Analog Voltage ・ Pulse Train Reference Type]
Terminal Marking
∑-Ⅱ ∑-Ⅴ Terminal Marking Function50pin 50pin
1,2,6,10, 1,2,6,10 GND Ground3 3 PL1 Battery for open collector reference4 4 SEN SEN signal input5 5 V-REF Speed reference input7 7 PULS Reference pulse input8 8 /PULS9 9 T-REF Torque reference input
11 11 SIGN Reference code input12 12 /SIGN13 13 PL2 Battery for open collector reference14 14 /CLR Clear input15 15 CLR18 18 PL3 Battery for open collector reference19 19 PCO PG frequency dividing output C-phase20 20 /PCO21 21 BAT(+) Battery (+)22 22 BAT(-) Battery (-)25 25 /V-CMP+(./COIN+) Speed match detection output (*1)26 26 /V-CMP-(./COIN-)27 27 /TGON+ Rotating detection output (*1)28 28 /TGON-29 29 /S-RDY+ Servo-ready output (*1)30 30 /S-RDY-31 31 ALM+ Servo alarm output (*1)32 32 ALM-33 33 PAO PG dividing output A-phase34 34 /PAO35 35 PBO PG dividing output B-phase36 36 /PBO37 37 ALO1 Alarm code output38 38 ALO239 39 ALO340 40 /S-ON Servo ON input (*1)41 41 /P-CON P operation input (*1)42 42 P-OT Forward drive prohibit input (*1)43 43 N-OT Reverse drive prohibit input (*1)44 44 /ALM-RST Alarm reset (*1)45 45 /P-CL Forward side external torque limit input (*1)46 46 /N-CL Reverse side external torque limit input (*1)47 47 +24VIN External power supply input48 - PSO S-phase signal output49 - /PSO
Shell Shell FG Frame ground(*1): The sequence I/O is factory default setting The allocation change is possible by using the user parameter
Please note that the CN1 I/O signal connector cover is not compatible The CN2 encoder connector and CN5 analog monitor connector are compatible
29/42
【MECHATROLINK-II Communication Reference Type】
Terminal No.∑-Ⅱ ∑-Ⅴ Function50pin 26pin
1,2,6,10 16 GND Ground21 14 BAT(+) Battery (+)22 15 BAT(-) Battery (-)25 - /COIN+26 - /COIN-27 1 /BK+ Brake interlock output28 2 /BK-29 - /S-RDY+ Servo-ready output30 - /S-RDY-31 3 ALM+ Servo alarm output32 4 ALM-37 - ALO1 Alarm code output38 - ALO239 - ALO341 9 /DEC Homing deceleration switch input42 7 P-OT Forward drive prohibit input43 8 N-OT Reverse drive prohibit input44 10 /EXT1 External latch signal 1 input45 11 /EXT2 External latch signal 2 input46 12 /EXT3 External latch signal 3 input47 6 +24VIN External power supply input- 13 /SI0 General input- 17 PAO PG frequency dividing output A-phase- 18 /PAO- 19 PBO PG frequency dividing output B-phase- 20 /PBO- 21 PCO PG frequency dividing output C-phase- 22 /PCO- 23 /SO2+ General-purpose output- 24 /SO2-- 25 /SO3+- 26 /SO3-
Shell Shell FG Frame Ground(*1): The sequence I/O is factory default setting The allocation change is possible by using the user parameter
TerminalMarking
Positioning completion output
Please note that the CN1 I/O signal connector cover is not compatible The CN2 encoder connector is compatible with CN5 analog monitor connector
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3-3. Installation Size Σ-II series servo amplifier is not compatible with Σ-V series servo amplifier in the dimension and mounting
dimension. The position of the screw for the installation is different.
【AC200V 200W or less】
【AC100V 200W or less and AC200V 400W】
【AC100 400W and AC200V 750W】
2-M4 tap 2-M4 tap
2-M4 tap 2-M4 tap
2-M4 tap 2-M4 tap
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【0.5kW~10.kW】
【1.5kW】
Detailed Drawing
Detailed Drawing
3-M screw hole
External
2-M4 screw hole
(mounting pitch)
150±
0.5
(mou
ntin
g pi
tch)
149.
5±0.
5 (m
ount
ing
pitc
h)
4-M screw hole 4-M screw hole
(mou
ntin
g pi
tch)
14
9.5±
0.5
(mounting pitch)
150±
0.5
(mou
ntin
g pi
tch)
(mounting pitch)
External
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【2.0kW, 3.0kW】
Terminal Table Σ-V Σ-II
External
Terminal marking L1,L2,L3,L1C,L2C,B1/+,B2,B3,-1,-2,U,V,W L1,L2,L3,L1C,L2C,B1,B2,B3,+1,+2,
-,U,V,W
Screw size M4 M4
Screw pitch 11mm 13mm
Allowable crimping terminal size
φ9 or less φ10 or less
Qty. 13 units 14 units
110
250
100
180
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【5.0kW】
Detailed Drawing
Detailed Drawing
4-M5 tap
4-M4 screw hole
(mounting pitch)
(mou
ntin
g pi
tch)
(mounting pitch)
(mou
ntin
g pi
tch)
External
4-M5 tap 4-M5 screw hole
(mounting pitch)
(mounting pitch)
External
(mou
ntin
g pi
tch)
(mou
ntin
g pi
tch)
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5kW Model Terminal Table Σ-V Σ-II
External
Terminal marking A part (L1,L2,L3,L1C,L2C,B1/+,B2,B3,-1,-2)
A part (L1,L2,L3, +1,+2,-), C part (U,V,W)
Screw size M4 M5
Screw pitch 11mm 16mm
Allowablecrimpingterminal size
φ9 or less φ13 or less
Qty. 10 units 6 units, 3 units
Terminal marking B part (U,V,W) B part (L1C,L2C,B1,B2,B3,)
Screw size M4 M4
Screw pitch 13mm 11mm
Allowablecrimpingterminal size
φ10 or less φ9 or less
Qty. 3 units 5 units
250
110 135
250
A
B
C
A
B
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3-4. Notes on control panel installation Please note the differences of the electrical conduction state of the frame ground when using an
attachment to accommodate the differences of the installation hole size. An alarm may occur and the
machine may operate improperly because the amount of noise changes when the electrical conduction
state changes.
Control Panel Side
Servo Amplifier
Control Panel Side
Servo Amplifier
Attachment
The frame ground of the control
panel and servo amplifier conduct
through the installation screw.
When painting and/or surface treatment is
given to the attachment for rust prevention,
electrical conduction between the attachment
and control panel may be impossible.
Conducting Part
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4. Cable and Peripherals ■ Connector for I/O SignalAnalog・Pulse Train Reference Type
Σ-Ⅱ Σ-ⅤConnector terminal block conversion unit JUSP-TA50P JUSP-TA50PG-EOne-sided individual pull out cable JZSP-CKI01-1 JZSP-CSI01-1-E
JZSP-CKI01-2 JZSP-CSI01-2-EJZSP-CKI01-3 JZSP-CSI01-3-E
Connector kit (for CN1) JZSP-CKI9-1 JZSP-CSI9-1-E
MECHATROLINK-II Communication Reference Type
Σ-Ⅱ Σ-ⅤConnector terminal block conversion unit JUSP-TA50P JUSP-TA26P-EConnector kit (for CN1) JZSP-CKI9-1 JZSP-CSI9-2-E
■ Analog Monitor
Σ-Ⅱ Σ-ⅤCable for analog monitor JZSP-CA01 JZSP-CA01-E
■ PC Connection Cable
Σ-Ⅱ Σ-ⅤJZSP-CMS01JZSP-CMS02JZSP-CMS03
■ MECHATROLINK Communication Cable
Σ-Ⅱ Σ-ⅤJEPMC-W6002-A6 JEPMC-W6002-A5-EJEPMC-W6002-02 JEPMC-W6002-01-EJEPMC-W6003-** JEPMC-W6002-**-E
Terminator JEPMC-W6023 JEPMC-W6022-E
■ Cable for Safety FeatureType TypeΣ-Ⅱ Σ-Ⅴ
Cable for safety feature - JZSP-CVH03-03-ECable kit for safety feature - 2013595-1
Name Type
Name Type
Name Type
Name Type
Name
PC connection cable JZSP-CVS06-02-E
Name Type
Cable with both-ended connector
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■ Digital Operator
Σ-Ⅱ Σ-ⅤDigital operator JUSP-OP02A-2 JUSP-OP05A-1-E
JUSP-OP02A-1Cable for digital operator (for JUSP-OP02A- JZSP-CMS00-1
JZSP-CMS00-2JZSP-CMS00-3
■ Noise FilterAC100V
Σ-Ⅱ Σ-Ⅴ30W FN2070-6/07 -50W/R70F FN2070-6/07 FN2070-6/07100W/R90F FN2070-6/07 FN2070-6/07200W/2R1F FN2070-10/07 FN2070-10/07400W/2R8F - FN2070-16/07
AC200V
Σ-Ⅱ Σ-Ⅴ30W FN2070-6/07 -50W/R70A FN2070-6/07 FN258L-7/07100W/R90A FN2070-6/07 FN258L-7/07200W/1R6A FN2070-6/07 FN258L-7/07400W/2R8A FN2070-10/07 FN258L-7/070.5kW/3R8A FN258L-7/07 FN258L-7/07750W/5R5A FN258L-16/07 FN258L-16/071.0kW/7R6A FN258L-16/07 FN258L-16/071.5kW/120A FN258L-16/07 HF3020C-UQC2.0kW/180A FN258L-16/07 HF3020C-UQC3.0kW/200A FN258L-30/07 HF3030C-UQC5.0kW/330A FMAC-0934-5010 HF3050C-UQC
AC400V
Σ-Ⅱ Σ-Ⅴ0.5kW/1R9D FN258L-7/07 FN258L-7/071.0kW/3R5D FN258L-7/07 FN258L-7/071.5kW/5R4D FN258L-7/07 FN258L-7/072.0kW/8R4D FN258L-16/07 FN258L-16/073.0kW/120D FN258L-16/07 FN258L-16/075.0kW/170D FS5559-35-33 FMAC-0934-5010
Name Type
-
NameServo
Capacity/CurrentDisplay
Type
Type
Noise filter
NameServo
Capacity/CurrentDisplay
Type
Noise filter
Noise filter
NameServo
Capacity/CurrentDisplay
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■ Battery
Σ-Ⅱ Σ-ⅤBattery JZSP-BA01 JZSP-BA01
JZSP-BA01-1Equivalent to ER6VC3
Battery unit - JUSP-BA01
■ Brake Power Supply
Σ-Ⅱ Σ-ⅤBrake power supply (for DC90V brake) AC100V LPDE-1H01 LPDE-1H01-E
AC200V LPSE-2H01 LPSE-2H01-EBrake power supply (for DC24V brake) Customer Provides Customer Provides
■ DC Reactor for Power Line Harmonics ControlAC100V
Σ-Ⅱ Σ-Ⅴ30W - -50W/R70F - X5053100W/R90F X5063 X5053200W/2R1F X5062 X5054400W/2R8F - X5056
AC200V
Σ-Ⅱ Σ-Ⅴ30W - -50W/R70A - X5061100W/R90A X5071 X5061200W/1R6A X5070 X5061400W/2R8A X5069 X50610.5kW/3R8A X5061 X5061750W/5R5A X5061 X50611.0kW/7R6A X5061 X50611.5kW/120A X5060 X50602.0kW/180A X5060 X50603.0kW/200A X5059 X50595.0kW/330A X5068 X5068
AC400V
Σ-Ⅱ Σ-Ⅴ0.5kW/1R9D X5074 X50741.0kW/3R5D X5075 X50751.5kW/5R4D X5075 X50752.0kW/8R4D X5076 X50763.0kW/120D X5076 X50765.0kW/170D X5077 X5077
NameServo
Capacity/CurrentDisplay
Type
DC reactor for power line harmonicscontrol
NameServo
Capacity/CurrentDisplay
Type
DC reactor for power line harmonicscontrol
NameServo
Capacity/CurrentDisplay
Type
DC reactor for power line harmonicscontrol
Name Type
Name Input Voltage Type
Equivalent to ER6VC3N
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■ Surge Absorber/Surge Protector/Surge SuppressorAC100V
Σ-Ⅱ Σ-Ⅴ30W TU-25C120 -50W/R70F100W/R90F200W/2R1F400W/2R8F -
AC200V
Σ-Ⅱ Σ-Ⅴ30W TU-25C240 -50W/R70A100W/R90A200W/1R6A400W/2R8A750W/5R5A0.5kW/3R8A1.0kW/7R6A1.5kW/120A2.0kW/180A3.0kW/200A5.0kW/330A
AC400V
Σ-Ⅱ Σ-Ⅴ0.5kW/1R9D1.0kW/3R5D1.5kW/5R4D2.0kW/8R4D3.0kW/120D5.0kW/170D
NameServo
Capacity/Current Display
Type
Surge absorber/Surge protector/Surge suppressor TU-25C120 LT-C12G801WS
NameServo
Capacity/Current Display
Type
Surge absorber/Surge protector/Surge suppressor TU-25C240 LT-C32G801WS
NameServo
Capacity/Current Display
Type
Surge absorber/Surge protector/Surge suppressor Built-In LT-C35G102WS
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■ Electromagnetic ContactorAC100V
Σ-Ⅱ Σ-Ⅴ30W HI-11J -
50W/R70F100W/R90F200W/2R1F400W/2R8F - SC-4-1
AC200V
Σ-Ⅱ Σ-Ⅴ30W HI-11J -
50W/R70A100W/R90A200W/1R6A400W/2R8A0.5kW/3R8A750W/5R5A1.0kW/7R6A1.5kW/120A2.0kW/180A3.0kW/200A5.0kW/330A HI-25J SC-N1
AC400V
Σ-Ⅱ Σ-Ⅴ0.5kW/1R9D1.0kW/3R5D1.5kW/5R4D2.0kW/8R4D3.0kW/120D5.0kW/170D HI-25JCU SC-N2S/G
NameServo
Capacity/CurrentDisplay
Type
Electromagnetic contactor HI-11J SC-03
NameServo
Capacity/CurrentDisplay
Type
Electromagnetic contactor
HI-11J SC-03
HI-15J SC-4-1
HI-20J SC-5-1
NameServo
Capacity/CurrentDisplay
Type
Electromagnetic contactor
HI-15JCU SC-4-1/G
HI-20JCU SC-5-1/G
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5. Parameter Converter The user constant of the ∑-II series servo amplifier is able to be converted automatically into the parameter of the ∑-V servo amplifier by using a parameter converter in the Sigma V engineering tool SigmaWin+Ver.5.00 or later. The procedure is shown below.
1. Open the Sigma 2 Component of SigmaWin + then confirm and save the user constant of the ∑-II
servo amplifier.
If a user constant file taken from the servo amplifier is available use that file.
【Example of user constant save screen】 【Example of parameter converter screen】
2. Open the Sigma V Component, and start the parameter converter.
3. Specify the user constant file of the ∑-II servo amplifier which was saved in step 1 to the former
conversion file name.
4. Specify where to save the converted file.
5. The user constant is converted to the parameter when the conversion button is pushed. The part
where readjustment might be needed is highlighted in yellow.
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6. Click "Write to the Servo" button on the parameter edit screen to write the conversion result in the
servo amplifier after connecting to the writing destination servo amplifier online.
Parameter Converter Directions
・ The tune-less function is valid for the parameter converted (Pn170.0=1)
・ The gain parameter readjustment is necessary because there is a possibility that the rotor inertia of
the motor changes when disabling the tune-less function (Pn170.0=0).
・ Change the reference of the host controller, or change the setting of an electronic gear because the
resolution of the encoder changes when using positional control mode.
Revision History Revision
No.
Date Changes
0 5/16/2007 First edition
<1> 7/5/2007 Use "L1" and "L2" terminals as a main circuit terminal when using SGDV in the
single phase power supply.
<2> 7/9/2007 Changed the shaft end specification with the reduction gears due to
DPI-C-7015.
<3> 11/7/2007 Newly added the following.
Notes of replacement from MECHATROLINK and parameter converter. Stop
methods of auto-tuning, velocity bias, at alarm occurrence.
<4> 2/12/2008 Newly added 100V model, models up to 200V medium capacity 5kW and
SGMPS support.
Recommended